The effect of the standard dust dispersers, rebound nozzle and annular nozzle, in the 20 L explosion vessel on the particle integrity has been quantified. Dispersion tests were run and measurements of the particle size before and after dispersion and of the elastic recovery of the materials were performed. The effect of the dispersion pressure was also studied. Different dusts were tested: lycopodium, nicotinic acid, ascorbic acid, anthraquinone, active carbon, and paracetamol. Results show that particle breakage occurs at any conditions for all the dusts investigated, except for lycopodium. It is also found that dispersion through the rebound nozzle generates a more significant variation in particle size than dispersion through the annular nozzle. Furthermore, higher fractional loss is observed with increasing dispersion pressure.
Effect of the nozzle type on the integrity of dust particles in standard explosion tests
Sanchirico Roberto;Di Sarli Valeria;
2015
Abstract
The effect of the standard dust dispersers, rebound nozzle and annular nozzle, in the 20 L explosion vessel on the particle integrity has been quantified. Dispersion tests were run and measurements of the particle size before and after dispersion and of the elastic recovery of the materials were performed. The effect of the dispersion pressure was also studied. Different dusts were tested: lycopodium, nicotinic acid, ascorbic acid, anthraquinone, active carbon, and paracetamol. Results show that particle breakage occurs at any conditions for all the dusts investigated, except for lycopodium. It is also found that dispersion through the rebound nozzle generates a more significant variation in particle size than dispersion through the annular nozzle. Furthermore, higher fractional loss is observed with increasing dispersion pressure.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
